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利用2016年和2017年共5次降水过程数据,对天气雷达-自动站联合估测降水和自动站降水、雷达OHP产品进行对比分析,并给出联合估测降水拟合的Z-R关系。结果表明:自动站1h降水量≤1mm时,联合估测降水的平均相对误差大,但均方根误差在可接受范围内,且联合估测降水量非常接近自动站降水量;自动站1h降水量1mm时,联合估测降水的效果较好,其中20mm时联合估测降水的精度最好,平均相对误差低于8%;自动站1h降水量1mm时,联合估测降水量优于雷达OHP(1h累积降水量)产品;同一次降水过程,不同时次的Z-R关系不同,无明显变化规律。 相似文献
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多普勒天气雷达一小时累积降水产品估测能力检验 总被引:4,自引:0,他引:4
使用2002年4-10月、2003年4-8月宜昌多普勒天气雷达(CINRAD/SA)一小时累积降水(OHP)产品与同期宜昌市气象局所属12个自动雨量站逐小时降水资料,对其做了对比分析。结果表明,CINRAD/SA定量测量降水中采用的混合扫描算法在宜昌市是可行的;总体上,雷达估测的一小时累积降水量比其实况值小,对≥10.0mm/h的降水的估测能力要优于对0.1-9.9mm/h的。 相似文献
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中国与印度夏季风降水的比较研究 总被引:37,自引:0,他引:37
本文用1951—1980年中国和印度的降水资料研究了两个地区在西南季风时期(6—9月)总雨量变化的关系。发现印度的雨量变化与中国各地雨量的相关关系有正、有负,最明显的是印度中西部与我国华北地区有较高的正相关。进一步对两个地区降水存在遥相关的原因进行了分析,发现南亚次大陆低压是联系两个季风区雨量变化的重要环节。中国季风雨量与印度季风雨量的相关趋势,主要决定于中国各地雨量与东亚夏季风强度的关系。 相似文献
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《湖北气象》2017,(2)
利用1980—2013年7月1日—9月30日中国东南地区818个国家地面气象站小时降水资料以及台风6 h路径观测数据分离出台风降水后,采用最大似然估计法得到台风小时降水Gamma概率密度函数分布的形状参数α和尺度参数β,并对代表站点上Gamma分布模拟的小时降水概率分布与观测的小时降水频率分布进行对比分析;最后,基于Gamma分布模拟,得到台风小时降水总的降水概率分布特征以及不同台风影响距离和台风强度影响下超过给定阈值的降水累积概率分布与极端降水阈值。结果表明:我国东南地区台风降水总的特征是小时降水超过5 mm多发地区位于华南、华东沿海地区;其余大部分地区不易发生超过5 mm的小时降水量;广东沿海、广西南部、海南西北部,小时降水超过10 mm的累积概率为10%~15%;小时雨量超过20 mm阈值的概率极低;在近距离台风影响下,随着台风强度增大,95%累积概率小时降水阈值为15~20 mm的区域由福建和广东沿海以及海南变为湛江和海南,而阈值为10~15 mm的地区由两广浙闽地区变为广东、福建和江苏沿海以及浙江;就远距离台风而言,随着台风强度增大,东南地区出现台风降水的区域逐渐由东南沿海向内陆延伸;海南、广东、福建和江西为远距离强台风影响下95%累积概率对应的小时降水阈值较高地区。 相似文献
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西南区域中心模式SWC-WARMS降水偏差分析 总被引:1,自引:1,他引:0
本文利用2014—2015年5—10月12(24)h累积降水资料和西南区域模式(SouthWest Center WRF ADAS Real-time Modeling System,SWC-WARMS)36(72 h)预报时效内降水预报资料,从概率和频次角度分析不同海拔高度地区观测和模式降水在量级及空间分布上的特征差异。结果表明,SWC-WARMS模式各预报时效各量级降水的概率密度均比观测偏大,并向10 mm以下雨量集中,且随预报时效延长偏大更显著;模式与观测降水的概率密度曲线差异在盆地小于高原,地形差异小的区域小于地形差异大的区域。SWC-WARMS模式对四川地区降水预报存在雨日较观测明显偏多,量级偏大,降水频次高值区范围偏大、出现虚假高值区等系统性偏差。此外,模式预报在20—08时比08—20时优,24 h累积降水预报优于12 h降水预报,尤以中雨及以上量级降水落区预报为甚。最后,模式极端强降水预报在20—08、20—20时较实况偏大,08—20时,模式预报在盆地较实况偏小,川西高原和攀西地区偏大。 相似文献
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对面雨量预报进行性能评估可以更好地发挥降水预报在流域防汛抗旱调度中的决策支持作用。分别利用CMORPH融合降水产品与地面降水观测资料估算2008—2017年淮河流域15个子单元逐日面雨量;利用2013—2017年ECMWF集合预报降水产品,采用正确率、TS评分、空报率、漏报率、CPRS、RCRPS、CRPSS等指标,对淮河流域面雨量预报性能进行评估。结果表明:CMORPH融合降水产品与地面降水观测资料的面雨量估算结果之间存在显著的线性相关,CMORPH融合降水产品可用于淮河流域面雨量估算; ECMWF确定性预报的晴雨预报正确率随着预报时效延长呈下降趋势,平原地区各等级面雨量TS评分高于山区,大暴雨以下量级降水预报量级有不同程度偏大现象;各累积时段集合预报性能基本上随着预报时效延长逐渐降低,0~96 h集合预报相对于气候均值预报的优势更为明显;汛期山区集合预报性能整体优于平原地区,非汛期反之。 相似文献
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中国大陆OLR与西北夏季降水 总被引:6,自引:0,他引:6
中国西北地域辽阔,地形复杂。该区内大部分地方属干旱、半干旱气候区,降水量的时空分布差异很大。为研究这种差异性,作者曾将西北地区夏季(6—8月)降水总量作了EOF分解,指出西北夏季降水总量与热带太平洋海温及ENSO事件关系密切;蒋尚城等用9年NOAA卫星观测的OLR资料对长江流域地区夏季雨量进行的估算、徐国昌等用OLR对夏季青藏高原月雨量及凝结潜热的估算,均得到较好的结果。这些研究表明,OLR与大陆夏季降水量存在着与热带海洋上一样好的关系。由于西北夏季雨量集中,6—8月降水量占全年雨量的一半以上。OLR通过云的变化与降水量之间必然存在较好的相关性。 相似文献
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通过近30 a逐日降水资料对印江、江口、松桃3县降水稳定性分析得出:①汛期降水的主要集中在5—7月;②汛期雨量在年际间表现不够稳定,雨涝年的汛期雨量是干旱年的2倍多;③按滑动10 d计算集中期,松桃降水集中期主要是6月1—10日、6月22日—7月1日、7月10—19日;江口县降水集中期主要是6月29日—7月8日、6月1—10日、6月15—24日;印江降水集中期主要是6月18—27日、6月1—10日、7月15—24日。年际间降水集中期不稳定,需要常年做出预测。④印江、江口、松桃4月和10月有暴雨灾害出现,宜将当地的汛期定为4—10月。对长历时降水分析得出:①汛情的严重程度与4 d以内的长历时降水有较好的正相关,研究时长4 d以内的最大累积降水能反映汛情的基本情况;②依据经验频率,统计24 h、48 h、72 h和96 h共4个时长10 a 1遇、5 a 1遇、3 a 1遇的雨量情况,认为在无新增佐证的情况下,宜将3 a 1遇的降水量确定为长历时降水致灾风险阈值。 相似文献
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在假定空气绝热上升的基础上,本文根据云的凝结率和地面的降水率,推导出层状云系降水效率的计算公式,其优点是可以用常规探空资料和地面雨量求得降水效率。本文还利用1980和1983年梅雨期的南京、阜阳和安庆探空资料估算云中垂直气流速度,得到云的凝结率;对上述两年的地面降水率分别用安徽白湖地区和南京以西滁县地区的加密雨量站网求得平均雨量,进而得到梅雨锋层状云系的降水效率。 相似文献
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大暴雨过程中短时强降水机制分析 总被引:13,自引:5,他引:8
利用雷达径向速度、风暴相对径向速度和风廓线产品以及数值预报产品和雨量资料,分析了临沂2008年汛期中最大也是最后一场大暴雨过程中短时强降水发生机制。结果发现:在有利的大尺度环流背景形势下,中小尺度系统的生成是短时强降水产生的原因。分析还表明:低空西南气流的稳定维持利于降水过程持续,而高空气流的短波波动则造成降水强度的强弱波动变化;当高空气流由偏西风转为西南风,中低空西南气流和中高空西南气流同向叠加时,对流层中层西南急流建立并且向超低空传递,高空冷空气的加入和低层西南气流加强促使中小尺度系统生成,导致短时强降水。 相似文献
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The lack of uncertainty measures in operational satellite rainfall (SR) products leads to a situation where users of the SR products know that there are significant errors in the products, but they have no quantitative information about the distribution of these errors. The authors propose a semiparametric model to characterize the conditional distribution of actual rainfall (AR) given measures from SR products. The model consists of two components: a conditional gamma density given each SR, and a smooth functional relationship between the gamma parameters and SR. The model is developed for monthly rainfall, estimated from a satellite with sampling frequency once a day, averaged over an area of 512 × 512 km2 in the Mississippi River basin. The conditional distribution results are more informative than deterministic SR products since the whole conditional distribution enables users to take appropriate actions according to their own risk assessments and cost/benefit analyses. 相似文献
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Summary A Pearson Product Moment Correlation matrix for four years of daily rainfall from 96 sites on the island of Mallorca has been used to derive and map correlation fields and construct composite correlation fields for different parts of the island based on previously defined daily rainfall affinity areas. Significant variations in rainfall organisation over the island are revealed. These reflect the dominance of uplift and exposure by upland areas in the generation of rainfall, evidenced in strongly anisotropic correlation fields. Further anisotropy along lowland coasts normal to the relief trend indicate the role of local rainfall generation along sea-breeze fronts. Near isotropic fields for central island locations highlight the importance of local convection and local convergence between opposing sea breeze systems and inland convection. Linear correlation distance-decay trends are determined for the island and for the predetermined rainfall affinity areas, including estimates of distance-decay rates along field axes. A suite of exponential cone functions is derived to model the empirically observed fields, representing their typical bidimensional structure. Use of the fitted cones to model a typical rainfall day, where the rainfall distribution mimics quite closely the longer term average, yields quite good results and suggests that their use may be more appropriate than applying more conventional general interpolation techniques in the mapping of spatial rainfall distributions.With 14 Figures 相似文献
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Theoretical and Applied Climatology - Statistics of the total time, in minutes, that extreme rainfall rates are exceeded were computed from weighing raingage records at stations in several rainfall... 相似文献
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Previous studies have indicated a connection between interannual variations of the Indian and North China summer rainfall. An atmospheric circulation wave pattern over the mid-latitude Asia plays an important role in the connection. The present study compares the influence of the above-normal and below-normal Indian summer rainfall on the North China summer rainfall variations. Composite analysis shows that the mid-latitude Asian atmospheric circulation and the North China rainfall anomalies during summer tend to be anti-symmetric in above-normal and below-normal Indian rainfall years. Analysis indicates that the Indian-North China summer rainfall relation tends to be stronger when larger Indian rainfall anomaly occurs during a higher mean rainfall period. The observed long-term change in the Indian-North China summer rainfall relationship cannot be explained by the impact of the El Niño-Southern Oscillation (ENSO). The present study evaluates the Indian-North China summer rainfall relationship in climate models. Analysis shows that the Indian-North China summer rainfall relationship differs largely among different climate models and among different simulations of a specific model. The relationship also displays obvious temporal variations in both individual and ensemble mean model simulations. This suggests an important role of the atmospheric internal variability in the change of the Indian-North China summer rainfall relationship. 相似文献
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Public perceptions of rainfall change in India 总被引:1,自引:1,他引:0
People’s perceptions of changes in local weather patterns are an important precursor to proactive adaptation to climate change. In this paper, we consider public perceptions of changes in average rainfall in India, analyzing the relationship between perceptions and the instrumental record. Using data from a national sample survey, we find that local instrumental records of precipitation are a strong predictor of perceived declines in rainfall. Perceptions of decreasing rainfall were also associated with perceptions of changes in extreme weather events, such as decreasing frequency of floods and severe storms, increasing frequency of droughts, and decreasing predictability of the monsoon. Higher social vulnerability—including low perceived adaptive capacity and greater food and livelihood dependence on local weather—was also associated with perceptions of decreasing rainfall. While both urban and rural respondents were likely to perceive local changes in precipitation, we show that rural respondents in general were more sensitive to actual changes in precipitation. Individual perceptions of changes in local climate may play an important role in shaping vulnerability to global climate change, adaptive behavior, and support for adaptation and mitigation policies. Awareness of local climate change is therefore particularly important in regions where much of the population is highly exposed and sensitive to the impacts of climate change. 相似文献